Near-vertical multiple ScS phases and vertically averaged mantle properties
Near-vertical multiple ScS (S waves reflected at the core-mantle boundary) phases are among the cleanest seismic phases traveling over several thousand kilometers in the Earth's mantle and are useful for constraining the average attenuation and shear wave speed in the whole mantle. However, the...
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Geological Society of America
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ftcaltechauth:oai:authors.library.caltech.edu:ak6cy-fbt12 2024-10-13T14:08:42+00:00 Near-vertical multiple ScS phases and vertically averaged mantle properties Kanamori, Hiroo Rivera, Luis Anderson, Don L. Foulger, Gillian R. Lustrino, Michele King, Scott D. 2015-10-15 https://doi.org/10.1130/2015.2514(02 unknown Geological Society of America https://doi.org/10.1130/2015.2514(02) eprintid:62476 info:eu-repo/semantics/openAccess Other ScS mantle Q mantle S-wave speed hot spot Samoa Hawaii info:eu-repo/semantics/bookPart 2015 ftcaltechauth https://doi.org/10.1130/2015.2514(02 2024-09-25T18:46:44Z Near-vertical multiple ScS (S waves reflected at the core-mantle boundary) phases are among the cleanest seismic phases traveling over several thousand kilometers in the Earth's mantle and are useful for constraining the average attenuation and shear wave speed in the whole mantle. However, the available multiple ScS pairs are limited. We took advantage of the recent dramatic increase in the number of global broadband stations and made a thorough computer-assisted search for high-quality data of multiple ScS pairs. We could find 220 station-event pairs which provided us with robust local estimates of average Q (quality factor) and two-way shear wave travel times. With the assumption that geometric focusing caused by lateral velocity heterogeneity does not seriously affect the amplitude measurements, the Q values exhibit strong short-range lateral variations, with very high and very low Q regions adjacent to each other. The mantle beneath seismic station KIP (Hawaii) has normal Q and shear wave speed, which supports the result of earlier studies. The mantle beneath station AFI (Samoa Islands) has a very high Q, possibly larger than 1400, and the slowest shear wave speed. The stations on the upper plate of the Tonga and Japan subduction zones yield average to low Q values. In contrast, the stations on the trenchward side of the upper plate of some subduction zones, e.g., station LVC (Chile) and station PET (Kamchatka, Russia), indicate high Q values, larger than 1000. We found no obvious correlation between Q and shear wave speed, which suggests that different factors like temperature, composition, anisotropy, etc., are controlling these properties in the mantle of different tectonic environments. © 2015 Geological Society of America. Accepted 2 February 2015. First published on August 28, 2015. Accepted Version - Kanamori_abs.pdf Book Part Kamchatka Caltech Authors (California Institute of Technology) Tonga ENVELOPE(7.990,7.990,63.065,63.065) |
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Caltech Authors (California Institute of Technology) |
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topic |
ScS mantle Q mantle S-wave speed hot spot Samoa Hawaii |
spellingShingle |
ScS mantle Q mantle S-wave speed hot spot Samoa Hawaii Kanamori, Hiroo Rivera, Luis Near-vertical multiple ScS phases and vertically averaged mantle properties |
topic_facet |
ScS mantle Q mantle S-wave speed hot spot Samoa Hawaii |
description |
Near-vertical multiple ScS (S waves reflected at the core-mantle boundary) phases are among the cleanest seismic phases traveling over several thousand kilometers in the Earth's mantle and are useful for constraining the average attenuation and shear wave speed in the whole mantle. However, the available multiple ScS pairs are limited. We took advantage of the recent dramatic increase in the number of global broadband stations and made a thorough computer-assisted search for high-quality data of multiple ScS pairs. We could find 220 station-event pairs which provided us with robust local estimates of average Q (quality factor) and two-way shear wave travel times. With the assumption that geometric focusing caused by lateral velocity heterogeneity does not seriously affect the amplitude measurements, the Q values exhibit strong short-range lateral variations, with very high and very low Q regions adjacent to each other. The mantle beneath seismic station KIP (Hawaii) has normal Q and shear wave speed, which supports the result of earlier studies. The mantle beneath station AFI (Samoa Islands) has a very high Q, possibly larger than 1400, and the slowest shear wave speed. The stations on the upper plate of the Tonga and Japan subduction zones yield average to low Q values. In contrast, the stations on the trenchward side of the upper plate of some subduction zones, e.g., station LVC (Chile) and station PET (Kamchatka, Russia), indicate high Q values, larger than 1000. We found no obvious correlation between Q and shear wave speed, which suggests that different factors like temperature, composition, anisotropy, etc., are controlling these properties in the mantle of different tectonic environments. © 2015 Geological Society of America. Accepted 2 February 2015. First published on August 28, 2015. Accepted Version - Kanamori_abs.pdf |
author2 |
Anderson, Don L. Foulger, Gillian R. Lustrino, Michele King, Scott D. |
format |
Book Part |
author |
Kanamori, Hiroo Rivera, Luis |
author_facet |
Kanamori, Hiroo Rivera, Luis |
author_sort |
Kanamori, Hiroo |
title |
Near-vertical multiple ScS phases and vertically averaged mantle properties |
title_short |
Near-vertical multiple ScS phases and vertically averaged mantle properties |
title_full |
Near-vertical multiple ScS phases and vertically averaged mantle properties |
title_fullStr |
Near-vertical multiple ScS phases and vertically averaged mantle properties |
title_full_unstemmed |
Near-vertical multiple ScS phases and vertically averaged mantle properties |
title_sort |
near-vertical multiple scs phases and vertically averaged mantle properties |
publisher |
Geological Society of America |
publishDate |
2015 |
url |
https://doi.org/10.1130/2015.2514(02 |
long_lat |
ENVELOPE(7.990,7.990,63.065,63.065) |
geographic |
Tonga |
geographic_facet |
Tonga |
genre |
Kamchatka |
genre_facet |
Kamchatka |
op_relation |
https://doi.org/10.1130/2015.2514(02) eprintid:62476 |
op_rights |
info:eu-repo/semantics/openAccess Other |
op_doi |
https://doi.org/10.1130/2015.2514(02 |
_version_ |
1812815447302602752 |